JP5085697B2 - Information processing apparatus and power supply method - Google Patents

Description

  The present invention relates to an information processing apparatus and a power feeding method.

  Information processing apparatuses such as PCs (Personal Computers) in recent years have a bus interface defined by a standard such as USB (Universal Serial Bus) (registered trademark) or IEEE 1394 as an interface for connecting to various devices. It is possible to supply power to the device via this bus interface.

  For example, in Patent Document 1, even when a power source of an information processing apparatus is turned off or when the information processing apparatus is in a power saving state, when a device is inserted into a bus interface, power is supplied to the device. A starting technique is disclosed.

JP 2006-53748 A

  However, even when the device is inserted into the bus interface, bus power supply is not always possible for the device. In other words, even if the device is simply inserted into the bus interface of the information processing device, the state of accepting power supply (allowing charging) differs depending on the device. Must be set to fit the device.

  Normally, such settings are performed by selecting a setting suitable for the device from a plurality of settings using a predetermined tool such as a utility installed in the information processing apparatus in advance. It is necessary to determine which setting can be used for charging.

  When the user has repeatedly charged the same device, it can be determined empirically which setting should be selected to enable the device to be charged. However, for example, when charging a device for the first time, it cannot be determined which setting is selected to enable the device to be charged. For this reason, there is a problem that a setting suitable for the device cannot be determined unless a troublesome procedure of selecting a plurality of settings one by one and repeatedly supplying power to the device with the selected setting is performed.

  The present invention has been made in view of the above, and an object thereof is to provide an information processing apparatus and a power supply method capable of easily setting power supply suitable for a device without bothering a user.

In order to solve the above-described problems and achieve the object, an information processing apparatus according to the present invention is an information processing apparatus capable of supplying power to an external device, and includes a connection unit that connects the external device, and the external device. A power supply means for supplying power to the external device connected to the connection means and at least one power supply mode for supplying power; and when the information processing apparatus is not operating, the power supply means And a wakeup setting unit configured to set the information processing apparatus to start when there is no effective power supply mode capable of supplying power to the external device and the power supply unit cannot supply power to the external device .
The power supply method according to the present invention is a power supply method for an information processing apparatus that supplies power to an external device, and has at least one power supply mode for supplying power to the external device and connects the external device. While supplying power to the external device connected to the connection means, and when the information processing apparatus is not operating, there is no effective power supply mode in which the power supply means can supply power to the external device. When power cannot be supplied to the device, wake-up setting for starting the information processing apparatus is performed.

  ADVANTAGE OF THE INVENTION According to this invention, the information processing apparatus and the electric power feeding method which can set the electric power feeding suitable for a device easily without bothering a user's hand can be provided.

It is the block diagram which showed the structure of the computer concerning this embodiment. It is a figure which shows the example in the case of performing the setting of permission or non-permission of USB power feeding. It is a figure which shows the example of the electric power feeding mode memorize | stored in the memory | storage part shown in FIG. It is a figure which shows the example of the electric power feeding mode memorize | stored in the external hardware shown in FIG. In this embodiment, it is a flowchart which shows the process sequence until it transfers to the state from which the computer was set to USB wakeup from an operation state. In this embodiment, it is a flowchart which shows the process sequence until it transfers to the operation state from the state by which the computer was set to USB wakeup.

  Exemplary embodiments of an information processing apparatus according to the present invention will be explained below in detail with reference to the accompanying drawings.

(First embodiment)
FIG. 1 is a block diagram showing a configuration of a computer 101 according to the present embodiment. As shown in FIG. 1, the computer 101 includes a CPU 102, a memory 103, a BOIS-ROM 104, a USB (Universal Serial Bus) controller 105, an endbed controller 106, a power supply microcomputer 107, a power supply circuit 108, The power supply circuit 109, the USB port 110, and the external hardware 112 are included. In the following description, the medium that receives power supply from the computer 101 is described as the USB device 111. However, for example, a medium based on a standard other than USB, such as IEEE1394, may be used.

  The CPU 102 is a processor that controls the operation of the computer 101. The CPU 102 loads a system BIOS (Basic Input Output System) stored in the BIOS-ROM 104 to the memory 103 and controls various hardware. The CPU 102 loads an OS (Operating System) stored in a hard disk (not shown) or the like into the memory 103 and executes the OS. In addition, various application programs other than the system BIOS and OS are executed.

  The memory 103 is a main memory for expanding and executing the OS and application programs stored in the system BIOS, hard disk, etc. (not shown) stored in the BIOS-ROM 104.

  The BOIS-ROM 104 is a memory that stores a system BIOS that mainly performs various settings for hardware.

  Functionally, the system BIOS stored in the BOIS-ROM 104 includes an activation unit 1041, a stop unit 1042, a power supply control unit 1043, and a storage unit 1044 as shown in FIG. Yes.

  The activation unit 1041 performs activation processing of various hardware in the computer 101 in response to an instruction from the power supply microcomputer 107 or a power supply control unit 1043 to be described later. The circuit 109 is shifted from a state where power is supplied to an operating state.

  Specifically, when the activation unit 1041 receives an instruction to execute activation processing from the outside, the activation unit 1041 determines whether the instruction is an instruction from the power supply microcomputer 107 or an instruction from the power supply control unit 1043. . If it is determined that the instruction is from an instruction from the power supply control unit 1043, the activation unit 1041 determines whether or not the USB port 110 is set to allow USB power supply. As will be described later, the case where the execution instruction of the activation process is based on the instruction from the power supply control unit 1043 is a case where the USB wake-up setting is performed.

  Here, the USB wake-up setting means that the USB device 111 is inserted into the USB port 110 in a state where the computer 101 itself is not operating but power is supplied to the USB controller 105 and the power supply circuit 109. In this case, it is a setting that enables USB power feeding.

  Further, for example, as shown in FIG. 2, the setting as to whether or not the USB power supply is permitted can be set by a tool such as a utility for setting the USB power supply installed in the computer 101. FIG. 2 shows an example in which the USB power supply “permission” or “non-permission” can be set by a pull-down menu displayed on the display (not shown) by the utility. As will be described later, this USB power supply “permitted” or “not permitted” setting is stored in the storage unit 1044 for each USB port 110.

  When the activation unit 1041 determines that the execution instruction for the activation process is based on an instruction from the power supply control unit 1043 and the USB port 110 is set to allow USB power supply, that effect Is notified to the power supply control unit 1043.

  Further, the activation unit 1041 determines that the instruction to execute the activation process is not based on an instruction from the power supply control unit 1043, that is, the instruction from the power supply microcomputer 107, or the instruction to execute the activation process is the power supply control unit 1043. However, if it is determined that the USB port 110 is not set to permit USB power supply, initialization processing of various hardware in the computer 101 is performed.

  For example, the activation unit 1041 performs processing such as initialization of settings such as VGA (Video Graphic Array) and IDE (Integrated Device Electronics). After performing this process, the activation unit 1041 activates an operating system (OS) so that the user can use the computer 101. Next, returning to FIG. 1, the stop unit 1042 will be described.

  The stop unit 1042 performs various hardware stop processing of the computer 101 in response to an instruction from an application such as an OS (Operating System), and the computer 101 itself is in a non-operating state from the state in which the computer 101 is operating. The controller 105 and the power feeding circuit 109 are shifted to a state where power is supplied.

  Specifically, when a shutdown process of an application such as an OS is performed, the stop unit 1042 performs a process such as saving settings such as VGA and IDE.

  In addition, when the processing such as saving the settings such as VGA and IDE ends, the stopping unit 1042 determines whether or not the USB port 110 is set to allow USB power feeding. Whether or not USB power supply to the USB port 110 is permitted is set by the utility as shown in FIG. 2 and stored in the storage unit 1044.

  If the stop unit 1042 determines that the USB power supply is set to be permitted, the USB controller 105 has detected a signal indicating that the USB device 111 is inserted into the USB port 110. Determine whether. Next, the power supply control unit 1043 will be described.

  The power supply control unit 1043 determines various power supply settings such as a power supply mode for performing effective USB power supply to the USB device 111 and USB wakeup setting.

  Here, the power supply mode is defined as a combination of conditions of each part of the computer 101 such as the USB controller 105, the power supply circuit 108, or the external hardware 112 in order to switch the USB device 111 to the charging mode.

  For example, combinations of control signal states (ON / OFF or H (High) / L (Low)) of each part of the computer 101 such as the USB controller 105, the external hardware 112, and the power supply circuit 108 are defined. Such a power supply mode setting is stored in the storage unit 1044 as described later.

  FIG. 3 is a diagram illustrating an example of the power supply mode stored in the storage unit 1044. In FIG. 3, each part of the USB controller 105, the external hardware 112, and the power supply circuit 108 is defined as a combination for determining the power supply mode.

  Specifically, when the power supply mode is “mode 0”, the power supply circuit 108 is set for USB power supply, and the USB controller 105 and the external hardware 112 do not perform settings for USB power supply. .

  “Mode 1” sets the USB controller 105 and power supply circuit 108 for USB power supply, “Mode 2” sets the external hardware 112 and power supply circuit 108 for USB power supply, and “Mode 3” , The USB controller 105, the external hardware 112, and the power supply circuit 108 are set for USB power feeding.

  In the following description, the above-described setting for USB power supply of each unit is described as being performed by a combination of “ON”, “OFF”, etc., but in actuality, for example, in the case of the external hardware 112 If there is, as shown in FIG. 4, the signal levels of the signal line 1 (clock line) and the signal line 2 (data line) of the USB device 111 are set to “H” or “L” in association with the respective power supply modes. Is set.

  As described above, in the present embodiment, a plurality of modes are defined as the power feeding mode. The reason is that depending on the USB device 111, the setting of the computer 101 required for switching to the charging mode is different.

  Returning to FIG. 1, the power supply control unit 1043 determines that the stop unit 1042 is set to allow USB power supply to the USB port 110, and the USB controller 105 has the USB device 111 inserted in the USB port 110. If it is determined that the USB power supply is set to be permitted to the USB port 110 from the activation unit 1041 in the activation process, The power supply mode is stored in the storage unit 1044. For example, when “mode 0” is stored in the storage unit 1044 as the power supply mode, the next power supply mode “mode 1” is stored as the current power supply mode.

  The power supply control unit 1043 sets each unit such as the USB controller 105, the external hardware 112, and the power supply circuit 108 according to the stored power supply mode. Then, in a state where these units are set, the value of the current supplied to the power supply circuit 109 by the power supply microcomputer 107 (hereinafter referred to as a supply current value) is acquired, and the supply current value is stored in the storage unit 1044 for each power supply mode. Remember.

  When storing the supply current value corresponding to the current power supply mode in the storage unit 1044, the power supply control unit 1043 acquires the supply current value for the next power supply mode in the same manner as described above. When the supply current values of all the power supply modes are stored in the storage unit 1044, the stored supply current values are compared to determine whether there is a supply current value for setting an effective power supply mode.

  Specifically, the supply current value in each power supply mode is compared with a current value (hereinafter referred to as a current threshold) that is stored in advance in the storage unit 1044 and serves as a reference for USB power supply. It is determined whether or not there is a supply current value that has exceeded. When it is determined that there is a supply current value that exceeds the current threshold, the power supply mode when the supply current value is acquired is stored in the storage unit 1044 as an effective power supply mode for USB power supply. Each unit is set according to the stored power supply mode.

  Also, the power supply control unit 1043 determines that the stop unit 1042 has not detected a signal indicating that the USB device 111 is inserted into the USB port 110, or for setting the above-described effective power supply mode In any case where it is determined that there is no supply current value, the USB port 110 is set to USB wakeup, and the activation unit 1041 of the BIOS-ROM 104 is instructed to perform activation processing. Next, the storage unit 1044 will be described.

  The storage unit 1044 stores various settings for performing USB power feeding. Specifically, the storage unit 1044 stores a current threshold value, a power supply mode effective for USB power supply, and stores a supply current value for each power supply mode. Further, combinations of power supply modes as shown in FIGS. 3 and 4, USB wakeup settings, and settings for “permitting” and “not permitting” USB power feeding as shown in FIG. 2 are stored for each USB port 110. .

  Next, returning to FIG. 1, the USB controller 105 will be described.

  When the USB device 111 is inserted into the USB port 110, the USB controller 105 detects a signal indicating that the USB device 111 has been inserted. Further, the USB controller 105 performs the above-described instruction and controls transmission / reception of various commands and data for the inserted USB device 111.

  The endbed controller 106 performs power management of the computer 101. Specifically, when it is determined that the stopping unit 1042 is not set to allow USB power supply, or when the power supply control unit 1043 determines that there is no effective power supply mode, the power supply circuit 109. The USB power supply to the USB port 110 is prohibited, for example, the connection between the USB port 110 and the USB port 110 is cut off.

  Note that the reason for performing the USB wakeup setting when it is determined that the USB device 111 is not inserted is, for example, that a user accidentally inserted a device such as a mouse that is not a target for USB power supply into the USB port 110. Even when a USB device that is subject to USB power supply, such as a USB device equipped with a battery, is inserted into the USB port, USB power can be automatically supplied by performing USB wakeup settings. It is because it becomes.

  The power supply microcomputer 107 not only supplies a supply current to the power supply circuit 109 and each part in the computer 101 but also supervises the voltage state of each part in the computer 101. Further, when a power switch (not shown) is pressed and the power supply circuit 108 detects the signal, the power supply microcomputer 107 instructs the starter 1041 of the BIOS-ROM 104 to perform start-up processing.

  The power supply circuit 108 is a circuit that detects the signal when a power switch (not shown) is pressed and controls the power supply of the computer 101 main body.

  The power supply circuit 109 is a circuit for supplying power to the USB port 110 even when the stop unit 1042 performs various hardware stop processing.

  The USB port 110 is a port that mediates connection between the power supply circuit 109 and the USB device 111.

  The USB device 111 is a medium that can communicate and exchange data according to a method defined by the USB standard, and is, for example, a flash memory or a hard disk.

  The external hardware 112 is an external circuit other than the hardware that normally controls power, such as the BIOS-ROM 104, the USB controller 105, and the power supply circuit 108. As described above, the reason why the external hardware 112 is included in one of the combinations of conditions for setting the power supply mode is that the normal power supply is controlled like the BIOS-ROM 104, the USB controller 105, the power supply circuit 108, and the like. This is because effective power supply to the USB device 111 may not be possible with only the hardware that performs the above.

  Next, the stop process performed by the computer 101 described above will be described.

  FIG. 5 is a flowchart showing a processing procedure until the computer 101 shifts from an operating state to a state where USB wake-up is set. In the following description, it is assumed that the user has instructed an application such as the OS of the computer 101 to shut down.

  As illustrated in FIG. 5, when the shutdown unit 1042 is instructed to shut down an application such as an OS, the stop unit 1042 performs processing such as saving settings such as VGA and IDE (step S501).

  Then, the stopping unit 1042 determines whether or not the USB port 110 is set to allow USB power supply (step S502).

  If the stop unit 1042 determines that the USB port 110 is not set to permit USB power supply (step S502; No), the endbed controller 106 performs setting to prohibit USB power supply to the USB port 110 ( Step S503).

  On the other hand, if it is determined that the USB port 110 is set to allow USB power supply (step S502; Yes), the stop unit 1042 indicates that the USB controller 105 has inserted the USB device 111 into the USB port 110. It is determined whether or not a signal indicating is detected (step S504).

  If it is determined that the stop unit 1042 has not detected a signal indicating that the USB device 111 is inserted into the USB port 110 (step S504; No), the power supply control unit 1043 is connected to the USB port 110. The USB wake-up setting is performed, and the activation unit 1041 of the BIOS-ROM 104 is instructed to perform activation processing (step S505). When step S505 ends, the process advances to step S503, and the endbed controller 106 performs a setting for prohibiting USB power supply to the USB port 110.

  On the other hand, when the stop unit 1042 determines that the USB controller 105 detects a signal indicating that the USB device 111 is inserted into the USB port 110 (step S504; Yes), the power supply control unit 1043 stores the memory. The next power supply mode stored in the unit 1044 is stored in the storage unit 1044 as the current power supply mode, and each unit is set according to the stored power supply mode (step S506). Then, the stored supply current value in the power supply mode is acquired, and the supply current value is associated with the power supply mode and stored in the storage unit 1044 (step S507). Then, it is determined whether or not the supply current values of all the power supply modes are stored in the storage unit 1044 (step S508).

  If the power supply control unit 1043 determines that the supply current values of all power supply modes are not stored in the storage unit 1044 (step S508; No), the process returns to step S506 and repeats the processes of steps S506 to S507.

  On the other hand, if it is determined that the supply current values of all the power supply modes are stored in the storage unit 1044 (step S508; Yes), the power supply control unit 1043 compares the stored supply current values (step S509) and is effective. It is determined whether there is a supply current value for setting the power supply mode (step S510).

  If the power supply control unit 1043 determines that there is a supply current value for setting an effective power supply mode (step S510; Yes), the power supply mode when the supply current value is acquired is USB-powered. Are stored in the storage unit 1044 as an effective power supply mode, and settings are made for each unit such as the USB controller 105, the power supply circuit 108, or the external hardware 112 corresponding to the effective power supply mode (step S511).

  On the other hand, when the power supply control unit 1043 determines that there is no supply current value for setting an effective power supply mode (step S510; No), the process proceeds to steps S505 and S503.

  Thus, when the process of either step S511 or step S503 ends, the stop process in the present embodiment ends.

  Next, a startup process performed by the computer 101 will be described.

  FIG. 6 is a flowchart showing a processing procedure until the computer 101 shifts from the state in which the USB wakeup is set to the operating state. In the following description, it is assumed that an instruction to execute the startup process is received from the power supply microcomputer 107 or the power supply control unit 1043.

  As shown in FIG. 6, the activation unit 1041 determines whether the execution instruction of the activation process is an instruction from the power supply microcomputer 107 or the instruction from the power supply control unit 1043, that is, the execution instruction is based on the USB wakeup setting. It is determined whether or not (step S601).

  If it is determined that the execution instruction is due to the USB wakeup setting (step S601; Yes), the activation unit 1041 determines whether or not the USB port 110 is set to allow USB power supply (step S601). S602).

  If the activation unit 1041 determines that USB power supply is set to be permitted for the USB port 110 (step S602; Yes), the activation unit 1041 notifies the stop unit 1042 to that effect. Thereafter, the process proceeds to step S506 shown in FIG. 5, and the stopping unit 1042 performs stop processing after step S506.

  On the other hand, the activation unit 1041 determines that the execution instruction is not based on the USB wakeup setting (step S601; No), or determines that the USB port 110 is not set to allow USB power supply. (Step S602; No), processing such as initialization of VGA, IDE, etc. is performed (Step S603). When the process of step S603 is completed, the computer 101 activates an OS (Operating System) so that the user can use the computer 101. When the process of step S603 is completed, the activation process in the present embodiment is terminated.

  As described above, the storage unit 1044 stores a plurality of power supply modes that define the conditions of each unit of the computer 101 for making the connected USB device 111 chargeable, and the power supply control unit 1043 stores the USB device 111. Is selected, a power supply mode that is effective for the USB device 111 is selected from a plurality of power supply modes, and each part of the computer 101 is set according to the selected power supply mode. It is possible to set the power supply suitable for the device.

  It should be noted that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the above embodiments. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, constituent elements over different embodiments may be appropriately combined.

101 computer 102 CPU
103 memory 104 BIOS-ROM
1041 Start unit 1042 Stop unit 1043 Power supply control unit 1044 Storage unit 105 USB controller 106 Endebed controller 107 Power supply microcomputer 108 Power supply circuit 109 Power supply circuit 110 USB port 111 USB device 112 External hardware

Claims (7)

An information processing apparatus capable of supplying power to an external device,
Connection means for connecting the external device;
Having at least one power supply mode for supplying power to the external device;
Power supply means for supplying power to the external device connected to the connection means;
When the information processing apparatus is not in operation, there is no effective power supply mode in which the power supply means can supply power to the external device, and the information processing apparatus is set to start when the power supply means cannot supply power to the external device. Wakeup setting means to perform,
An information processing apparatus comprising: The power supply means determines whether or not the current supplied to the external device for each of the power supply modes is greater than or equal to a threshold value, and determines that the current supplied to the external device is greater than or equal to a threshold value Selecting the power supply mode as an effective power supply mode;
The information processing apparatus according to claim 1. The power supply means determines whether or not the current supplied to the external device is greater than or equal to the threshold for the plurality of power supply modes when the information processing apparatus is in a stopped state.
The information processing apparatus according to claim 2. A power supply method for an information processing apparatus that supplies power to an external device,
Having at least one power supply mode for supplying power to the external device;
While supplying power to the external device connected to the connection means for connecting the external device,
Wake-up setting that activates the information processing apparatus when the information processing apparatus is not in operation and there is no effective power supply mode in which the power supply means can supply power to the external device and the power supply means cannot supply power to the external device A power supply method characterized by:   5. The power supply method according to claim 4, wherein, when the wakeup setting is made, the external device connected to the connection unit is set when none of the plurality of power supply modes is valid. When obtaining the power supply mode, it is determined whether or not the current supplied to the external device for each of the power supply modes is greater than or equal to a threshold, and the current supplied to the external device is determined to be greater than or equal to the threshold. If selected, the power supply mode is selected as an effective power supply mode.
The power feeding method according to claim 4 or 5, characterized by the above. When the information processing apparatus is in a stopped state, it is determined whether or not the current supplied to the external device is equal to or greater than the threshold for the plurality of power supply modes.
The power feeding method according to claim 6.

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